By annette



Marh 31, 1931. Re. 18,022

l w. H. MORGAN. sR APPARATUS Fon AND, METHOD or mmc'rma 'JUICE FRQMYCANE sTALKs Original Filed Dec'. '7,u 1925- 3 Sheets-Sheet 1 l-IIII I'Il Suma@ March 31, 1931. Re. 18,022

W. H. MORGAN, SR` APPARATUS P QR AND METHOD 0F EXTRQGTING JICE FROM CANE STALKS original Filed Dec. 7, 192% :s sheets-sheet 2 March 31, 1931. -R. 18,022

W. H. MORGAN.- SR

APPARATUS FOR AND MEIILOD 0F E URAQTING JUICE FROM CANE STALKS original Filed Dec. 7, 1925 sheets-sheet s athnmg Reiuued Mar. 31, 1931 UNITED STATES1 PATENT OFFICE WILLIAMv n'. MORGAN,y sa., nECEAsED, LATE OF ALLIANCE, omo, BY ANNET'IE s.

' MORGAN, ExEcU'rBIx, or ALLIANCE, Omo; sAID WILLIAM II. MORGAN, sa., As-

sIeNonguay masNE AssIeNnIIizNrs,y 'ro MORGAN HUEBYCANE COMPANY, or Naw Your', N. Y., A CORPORATION or FLORIDA APPARATUS FORxAND METHOD F EXTRACTING JICE FROM CANE BTALIS Original No. 1,64 6,782,^, dilatedbctober 25, v1037, Serial No.'78,842, led December 7, 1925. Application yfor f f :reissue nled June 15, 1928. Serial No. 285,650.

This inventionrelates to a paratus for, and method oflextrac'ting-juice rom cane stalks. The" present practice of. extractlng cane juice, is to first crush -the stalks by passing zthem through slowly revolving crusher rolls,

and then` passing crushed stalks through a series of slowly movin juice extracting rolls. The cane as it'lis or pre-Crusher, is coated with awax like substance, and carries more.; or less dlrt, leaves and trash and 'other impurities, which, if it gets into the juice, contaminates the same thus necessitating its purification before .it can be converted lntosugar. 15.`

pare cane stalks that the 1 juice can be more readily and quickly v extracted therefrom.

A further object is to so simplifygthe atparatus and method that the cane can e harvested and the juice quickly and thoroughly extracted, thus preventing to a great extent inversion, consequently increaslng the quantity of sucrose and decreasing the molasses.

adapted for cleansing the cane stalks and converting them into a fibrous hay llke mass from which the juice may be readlly and quickly extracted.

A further object is to provide apparatus that will expedlte and simplify the process of extracting the juice from sugar caneat greatly reduced cost of apparatus, operation and time.

ed to the crusher One object of the l,invention is to .so pre- A further object is to: provide meansl With these and other objects in view the.

The pre-crushing rolls are large heavy.

slowly rotating rolls, and as the cane is fed thereto in a tangled mass, it is not uniformly distributed throu hout the length of the rolls, but may be t icker at either end or the center, consequently the mass of stalks passing through is not uniformly crushed, and

as it passes in the same manner to the juice extracting rolls, it is not uniforml pressed,

consequentlya large percentage o the juice cells are not eXPOscd or ruptured, and the stalks passfrom the juice extracting means with aA largegpercentage of the su ar producing conteht remaining therein w ich not only results in a heavy loss, but does not dry the bagasse suiciently for immediate use as a" fuel.

Again, the cane vis fed to the pre-Crusher without cleansing it, hence the dirt and other foreign substances carried in on the stalks, is carried on to the extracting rolls and mixing with the juice, contaminates the same, so

that subsequentpuriflcation is necessary before the juice can be converted into sugar.

In the accompanying drawings, Figure 1 is a` diagrammatic. view in side elevation partly in section'of one form of apparatus for carrying out the method;

Figure 2 is a view in plan of the same;

Figure 3 is a view similar to Figure 1' of a modified form of cleansing and cutting apparatus;

jFigure 4 is a plan view of the same;

Figures 5 and 6 are similar views of another modified form.

In the construction shown in Figures 1 and 2, 8 represents the washing tank or hopper, into which the stalks are` dumped from a cart, or bundles 9 of stalks deposited l,by 'an overhead crane, the Water line in the washer being indicated by the numeral 10. Thistank or washer is preferably provided with a discharge spout, shown and referred to. in a modification to be hereinafter described, through whicl1,'leaves, trash and other foreign matter can be discharged or 'floated out. Most of the cane stalks are sufficiently heavy to sink to the bottom of the tank or other support,l While others which are Wholly or partly diseased or deca ed, are not sufiiciently heavy to sink to the ottom of the tank but float near the top. The

. and is picke ma'or part of the cane however immediately1 sin to the bottom of the tank, and gravitates over the inclined bottom 11 toward the endless carrier or elevator 12. This elevator is located adjacent the dischar side of the tank or washer 8, and the sta s are picked p b the curved fingers 13 of the elevator whic is mounted at lts top on the roller 14, and at its lower end on the roller 15 which latter is carried by the swinging frame 1 6. This frame 16 is pivoted on the`v axis of the up r roller 14, or in the plane of said axis, an is adapted to swing forwardlyas shown in dotted lines in Figure 1. The bottom 11l of the tank or washer is curved concentric with the axis of the frame 16, sothat as the frame is swungl forwardly, the teeth 13 on the conveyor will pick up any stalks that may be held in suspension or which do not gravitate to the bottom of the tank. The cane being immersed in water, will be thoroughly washed by the latter and by attrition durin its movement in the washer, d up by the fingers 13 of the conveyor and 'discharged onto the deector 17' which dischar es it into the hopper 18. The upper end o? the conveyor or elevator is covered by the housing 19, so that none of the cane carried up by the elevator can drop from the fingers 13, but will be carried up and discharged onto the deflector 17 and slide on the latter to the saws or cutters 2O which are located in the hopper 18. These saws or cutters, a series of which are shown in Figure 2, are at right angles to the length of the stalks and cut the latter into short lengths, and these short lengths or cut stalks fall into the chute 18 and are fed from the latter to the dsintegrator or shearing apparatus which will be referred to later on.

In the lconstructon shown in Figures 3 and 4, the hopper 8a as in the previous construction may be located below the floor level, and the cane stalks dumped therein, either from a cart 0r from a sling carried by an overhead crane, the drain spout for the trash, leaves and other fioating particles being shown at 17. This hopper preferably has detlector 21-22 which direct the cane stalks onto a loop shaped conveyor 23. This conveyor consists of a series of endless and preferably sprocket chains, each of which is provided with a series of fingers 24,which positively move in unison, and consequently rumble the cane stalks in the direction rindicated by the irrow. The chains or conveyors 23, are mounted in loop form as shown, and the two shafts 24al and 24 carrying the same are 4connected by va sprocket chain or belt 25,

shown in dotted lines -in Figure 3, so that they rotate in unison and operate to maintain the conveyor in loop form, or prevent the upper members of the chains from are directed into the looped conveyor and rotated or turned therein as indicated by the arrow. The immersion of the cane stalks in water, and the rumbling or attrition of the,

same while thus submerged operate to remove the waxy coating on the stalks and also all sand and dirt adhering to the stalks and allows heavy substances-such as stone, tramp metal, etc., to fall through to the bottom of the hopper.

Preferably connected to or mounted on the shaft 24b is the inclined endless conveyor 26, which is partly submerged in the cleansing fluid, and is so located to receive the stalks carried around on the loop shaped conveyor and carry them up to the hoppers 18h in open communication with a housing.l It will thereforebe seen that the stalks in addition to the Washing and attrition or rumbling action to which they are subjected while being carried around on the loop shaped conveyor, are also subjected to a washing action of the water or other fluidwhile being carried up and out of the tank on the conveyor or elevator 26, so that by the time the stalks are discharged from said conveyor or elevator, they have been thoroughly Washed and will be substantially free of dirt and other matter which would contaminate the juice.

The bottom 11 of theftank or hopper 8 is inclined and is provided at its lowest oint with a gutter or well 11b connected wlth a pump (not shown) for removing all the dirt' washed from the stalks. The conveyors 23 and 26 are preferably composed of chains alternately placed, and the stalks as they are dischar ed from the conveyor 26 fall onto the de ector 27 from which they gravitate to the saws 20 which as shown in Figure 3, are located Within the hopper 18" and in aposition to engage the stalks as they gravitate down the inclined deilector 27. The axis of these saws is parallel with the axis of the stalks and the saws are at right angles to the latter, so that the saws cut the stalks into short length approximately six inches, and are preferably driven by a motor not shown. and 26 ma be actuated by a motor (not shown) an -belt or chain(25 connecting the shafts 24'* and 24 operate the conveyors and lshafts in unison. If desired the full length stalks may be'cleaned in the apparatus above described and then fed to the pre-crusher vand juiceI extracting apparatus now in use.

In other words the cleansing features may be added to the apparatus now used, so that to the saws so as to cut up any stalks f that may pass endwise or longitudinally between the saws 20, and cut them into short sections, the sections cut by the cutters 20 falling down and through hopper 28, between the said cutters or saws.

The stalks thus cut into short lengths fall by gravity down the chute 29 whichlatter, at its top, is as wide as they hopper is long, and this hopper tapers as shown in Figure 3, and feeds the cut stalks to a disintegrator 30, at or near the center thereof which may be as shown in application Serial Number 12,410 filed February 28th, 1925. The movable disk of the disintegrator (not shown) is preferably actuated by the motors 30 shown in Figure 6 either of which mo-y tors may be of suflicient capacity to continue the operation in the event one shouldV fail.

In the operation of said disintegrator shown in application Serial No. 12,410, the cane stalks are subjected to a succession of cutting o rations in neral directions longitudinal y ofthe sta s to split the stalks repeatedly in the general directions in which the stalk fibers extend. The stalks are thus divided or cut pro essively into finer and finer particles, whi e the longitudinal fibers f of the cane are reserved, and finally the stalks are reduce to a fibrous mass containing relatively long fibers. During the disintegrating operation, the cane juice is retained in contact' with the solid constituents of the cane and is absorbed in said fibrous mass.

Certain features of the `invention may be applied to, or embodied in, a process or apparatus in which the stalks are not passed through a disintegrator, but, after being cut into short len hs by the saws, are fed to the pre-crusher o an ordinary mill.

In the construction shown in Figures 5 and 6, the cane is dumped onto a conveyor 31 located within the water tank 32.

The cut sections of the stalks, and an whole or plartially cut stalks which pass end): wise up t e conveyor and between the saws 33, fall onto lone of the deflectors 33, 34, 35 and 36 in the water tank, and are guided thereby to one of the saws 35, 36'f, 37 which latter are at right angles to the saw 33, so that any stalks passing endwise between'the saws 33, will be engaged by one of the saws 35, 36 or 37 and be cut into short sections before assin to the disintegrator. Saws 35 are ocate below deflector 34 with their peripheries adjacent defiector 33. This defiector 34 as well as defiector 35 are V-shaped, and saws 35., 36 and 37 are located 'under the said delectors. It will therefore be seen that part of the stalks cut up by saws/33 and also any long stalks that may pass up4 `between saws 33, will fall on the deflectors and be guided thereby to the lower series of saws, most of the short lengths cut by saws.

33 passing between the saws 35, 36 and 37 while any full len sor oversize sections will be engaged y one of said latter saws and -be cut into shorter lengths.

Saw 35 engage the stalks dischar ed on deflectors 33 and the shorter mem er ofl deflector 34; saws 36 enga el the stalks falling on one member of de ector 35 and the longer member of deflector 34, the peripheries of the saws closely approaching the latter, while saws37 engage the stalks rdischarged between the defiectors l35 and 36, the peripheries of the saws being approximately in contact with'the longer deflectors.

The distintegration, which is `desi ned to shear or shred the cut sections into ongitudinal fibrous sections, may be constructed as disclosed in the ap lication above referred to, or it may be o vany other' construction which will convert the cut sectionsinto longitudinal fibrous, hay like sections, which are discharged therefrom by an air blast or by centrifugal force through the discharge outlet 38.

In the construction shown in Figures 5 and 6 the cut sections, prior to disintegra-l tion, fall onto an endlessconveyor 39 which discharges them into a trough 40 from which 1 they are picked up by the fingers or buckets on the vertical elevator 41 and discharged from the latter into the chute 42 leading to the disintegrator 30. i

The disintegrated stalks are, as before stated, discharged through the spout 38 into the distributor 42, which, as shown iny Fig- 'ure 6, is made Haring and considerably reduced in depth, so as to shape the disintegrated stalks into a mat or spongy mass of approximately even thickness, substantially the width of the drying or juice extracting rolls 43. The bottom of the distributor 42 llO is open so that the sheared or disintegrated sets of rolls shown in the several figures and they are within or over a juice pan 44 into which the normal juice of the cane falls. The disintegrated mass of stalks is fed from Aone extracting and drying unit to the next,

and by the time it has passed through the last set of drying rolls,`approximately all of the normal juice has been extracted and the bagasse is in condition to be fed directly to the boiler furnace to be as a fel.

The ba, as it leaves the last set of rolls 43, passes into the chute l44-to the blower or conveyor 45, and is ejected' ut,46^thereof, to

throu the discharge le fugi'lnace or storage bin as the case may the centrifugal typeA an'd is actuated by the Y motor 47. f

The extracting rolls 43 as shown are preferably mounted ina housing 47, screws 48 being provided for 'adjusting the upper rolls the latter are in turn coupled up to Iof the series.

Eachv roll 43 is coupled to a shaft 49 vand shafts each of which carries a gear wheel '50. The

gear wheels 50 of each unit are geared up to the ent-ire series of drim move in unison,- and the shaft of the upper or top gear wheel of each unit, is provi ed with a worm wheel 51, shown in dotted lines in Figure 2, which meshes with a worm 52 on the driveshaft 52. This drive shaft is shown coupled up to two motors 46, either of which is of a capacity suicient todrive g or juice extracting rolls, so that if eit er motor gets out of s order or needs repairing, the other one will ing the material, and not be ample to operate the rolls, or.-if desired each motor may drive a shaft .which oper; ates two juice extracting units.

By shearing or disintegrating the -stalks preparatory to the extraction of the juice, much less pressure is required to squeezeor extract the juice from the fibrous mass than isvnow required by the resent method. By the present apparatus t e cells are so thoroughly broken up and exposed, that the juice will be expelled therefrom by simply wnngso ely by a crushingaction as now used, whichl requires. a tremendous ressure to separate the juice from the stals.

The washing and attrition of the cane stalks,rids the stalks of all sand or grit which would otherwise be carried into the disintegrator and injure or dull the shearing blades in same and if passed through the` disintegrator would result in an abrasive action on the juice extracting rolls, which would eventually wear them smooth thus preventing the" proper gripping action as well as wearing out the bearings,v packing etc.

Where a shearing device or disintegrator of an design or construction for cutting or shearing the stalksy longitudinally of the same is used, the resultant product is a spongy fibrous mass with the cane juice or sugar content therein. This shea or disintegrating the stalks rupturesl t e cells, and while the water will be more or less disposed of by evaporation, the sucrose will, as above stated, remain in the s ngy mass.

, At the present time t e entire crop of sugar cane, inust be harvested, the juice extracted,

im f

The blower or-conveyor 45 shown is ofI cro Y. .iifterthe juice has been removed the baftal sugar,v and less mol.

evaporated, etc., within five or six months, the mills being idle the balance of the-time.` With. the present which is muchmore rapid than the process and apparatus now' in use, one can rapidly .or intensively harvest the cane and thus take advantage of the time when there' is the greatest perntage of sucrose in the cane thus Freatlydecreuing the and cost o the` ants n mw ry to take care ofthe entire is in perfect shape for burning and can process and apparatus,

asse ge used asa fuel for supplying power, and

is also in condition for making artificial wood, plaster board and similar construction. Cane thus sheared will yield more sucrose and less gluco, or in other words more crys- It also, limits the loss of sucrose in the mud and molasses. Again in the present process it isnot necessary to use filter presses or drying rolls for the bagasse from which the juice has been extracted, as the mid and otherforei matter is extracted before it enters the juice pan, thus e-liminatin the expense and losses above referred to. ap lication is a continuation as to common su ject matter of the applicants co-pending application, Serial No.- 288 filed Janua 2, 1925. Y j

aving fully escribed the invention what is claimed as new and desired to be secured by Letters-Patent, is 1. The method of treating sugarcane preparatory toextracting the juice therefrom, consisting in immersing the cane in a vat of cleansing fluid `and moving the cane to remove the dirt and other matter adhering thereto, cutting the cane thus cleansed into short lengths and extracting the juice from the cut cane.

2. Amethod of preparing sugar cane stalks for the extraction of the juice therefrom,

l comprising conve v the cane stalks to cutters, cuttin the into 'relatively short len hs an fee the cut stalks into a disintegrator and ucing the cut sections to a disintegrated fibrous mass by repeatedly splitting the same in general directions longitudinally of said sections,

3. A method of preparing sugar cane stalks for the extraction of the juice therefrom, which comprises colhreying the stalks to cutters, cuttin the stalks into short lengths and automatic y feeding the cut sections to a disintegratiiig apparatus and breaking up the juice cells and reducing the sections to a disintegrated fibrous mass by repeatedly splitting the same in general directions longitudinally thereof and subjecting them to violent impacts.

4. The method of preparing cane stalks for the extraction of the juice therefrom consisting in washing the stalks, automatically feeding the stalks to apparatus for cutting them into short lengths, cutting the stalks into short sections, disintegrating the cutI sections and feeding the disintegrated sec- I juice therefrom, consisting in depositing the stalks in a cleansin fluid movinvr the stalks therein to remove t e dirt and other foreign substances adhering to the stalks by the action of the cleansing fluid and attrition, feedling the cleansed stalks to apparatus for cut-l tin them into short lengths, cutting the sta s into short sections and disintegrating the cut stalks into a hay like fibrous mass.

6. The `method of treating sugar cane stalks reparatory to the extraction of the juice therefrom, consisting, in washing the cane stalks within a tank, elevating the stalks within a tank to a point above the fluid in the washing. tank, cuttingthe stalks into short lengths and feeding the cut stalks by gravity to a disintegrator, shearing or shre ding the cut stalks into hay like sections with the fibres extending lengthwise the sections and ejecting the sheared Vstalks to a distributor.

7. In an apparatus for washing and putting sugar cane stalksY into a condition forl the extraction of the juice therefrom, comprising a hopper or tank into which the cane stalks are deposited, an endless conveyor extending from approximately the bottom of the tank to a point above the fiuid line in the latter, cutters located in-aposition to engage the stalks as they leave the conveyor for cutting the stalks into short'lengths, a disinte ator for, shredding or shearing the cut sta s and a chute leadlng from the cutters to the disintegrator.

, 8. In an apparatus for washing and putting su r cane stalks into a condition for the rea y extraction of the juice therefrom, comprising a hopper or tank into which the cane stalks are deposited and in which they are washed and cleansed by attrition, means for removing the mud and other foreign matter from the tanks, an endless conveyor for elevating the cane stalks to cutters, a series of cutters for cutting the stalks into short lengths, and a shredder or disintegrator into which the cut stalks are automatically fed from the cutters.

9. In an apparatus for washing and preparing su ar cane stalks for the ready extraction o the juice therefrom, comprising a fluid tank having an arc-shaped bottom, an endless conveyor mounted on a frame pivoted to move the lower end of the conveyor over the curved bottom of the tank, the axis of the conveyor frame being substantially coincident with the axis of the curve of the bottom of the tank whereby the conveyor can be moved from its normal vertical position over the curved bottom of the tank.

10. In an apparatus for washing and preflengths.

paring sugar cane stalks for the extraction of the juice, comprising a fluid tank with an arc-shaped bottom, means at the lowest portion of said bottom for removing foreign matter de osited in the tank with the cane and also or the dirt and other matter adhering to the cane, an endless conveyor, normally located in a substantially vertical position above said lowest portion of the tank bottom the axis of the conveyor being concentric with the curvature of the bottom of the tank whereby the conveyor may be moved to an inclined lposition, a deflector at the upper end of t e conveyor onto which the washed stalks are deposited from the conveyor and aseries of cutters adjacent to saidV defiectors for cutting the stalks into short 11. Inan apparatus for preparing sugar cane stalks for the extraction .of the juice, an endless conveyor, a hopper at one end of the conveyor into which the stalks are discharged from the conveyor, cutters to which/the stalks are carried b the conveyor for severing the stalks into re atively short lengths, and a disintegrator to receive the cut stalks for repeatedlysplittingthe cut sections in general directions longitudinally of the same and progressively into finer and finer particles to reduce the sections to a fibrous haylike mass.

y 12. In an apparatus for preparing'sugar cane stalks for the extraction of the juice therefrom, a conveyor for conveying the stalks, cutters to which the stalks are carried by the conveyorY for severing the stalks into short lengths, a machine into which the cut stalks are discharged for shearing the stalks into a fibrous haylike mass, and means connecting the shearing machine with a distributor for Vdistributing the sheared stalks into a mat or body of comparatively even thickness.`

13.' In an apparatus for extracting the juice from cane stalks, a conveyor for the stalks, cutters to which the stalks are carried by the conveyor for cutting the stalks into short lengths, a shearing apparatus into which the cut stalks are discharged for shearing the cut stalks in general directions longitudinally thereof into a fibrous mass, and juice-extracting rolls to which said fibrous mass is delivered for' extracting the juice from said fibrous mass.

14. In an apparatus for extracting the juice from cane stalks, an elevator, cutters to which the stalks are carried by said elevator for cutting the stalks into relatively short lengths, a shearing device to which the cut stalks are delivered for shearing the cut stalks into'a fibrous haylike' mass, a distributor onto which the fibrous' mass is discharged from the shearing machine, and juice-extracting rolls to Which the sheared mass of stalks is fed from the distributor repeatedly splitting the cut stalks m general directions longitudinally thereof andprogressively into finer and finer particles to reduce them to a fibrous massv and juice-extracting means to which the brous mass 1s l0 delivered for extracting the juice from said fibrous mass.

A16. The method of treating sugar cane which comprises cutting the cane into relatively short lengths, sheariner thecut'cane in general directlons longitudinally thereofv into a fibrous haylikemass, and expressing the juice from s'aid mass. A

17. The method,l of treating sugar cane which comprises cutting'the cane` into relatively short lengths, splitting said short len hs of cane in general directions lungi#v tudinally, of thefibers to reduce them to a fibrous haylike mass, and extracting the juice from said mass. Y

18. Themethodoftreatingsugarcanewhich comprises splitting the -cane repeatedly in general directions'longitudinall of the same and progressively into finer an finer particles to yreduce the cane to a fibrous haylike mass, and extracting the juice from said mass.

19.The method of treating sugar canev which comprises shearing the cane lengthwise re atedly to reduce the same to a fibrous zylike mass, arran 'ng the disintcgrated cane in a mat of su stantially uniform thickness, and expressing the juice from said mat. f

20. A process of treating su ar cane stalks which comprises subjecting' t ecane stalks to a succession of cutting o erations in general directions longitudine y of the stalks to reduce the same to a loose long-fibered e mass and retaining the juice in contact with the solid constituents of the cane during the disintegrating operation to cause the absorption of the julce in said mass and extracting l the juice from said mass.

21. A process offtreating sugar cane stalk which includes as a step thereduction of the stalksto a loose long-fibered mass and the breaking up of the juice cells by splitting the stalks in general directions of the lengths of thefibers of the stalks.

22. A process of treating sugar cane stalks which includes as a step the reduction of the -stalks to a loose long-fibered mass and the breaking up'of the greater part of the juice cells by dividing the stalks repeatedl in gen- 'eral directions longitudinally thereo 23. The vprocess of treating su r ycane stalks which comprises subjecting t e stalks to successive cutting operations' in general directions longitudinally of the stalks to reduce the same progressively into finer and finer particles and to produce finally a loose long-ibered mass and the juice fromsaidm'ass.-

24. A process of treatin cane stalkswhich` comprises reducing the sta to a loose fibrous mass byv splitt' -the stalks in general` 70 directions longitu inally thereof. f J

25. A process of treatmg cane stalks whichl comprises splitting the'cane ingeneral directlons longitudinally of thevstalks to rewl duce the same to a loose fibrous mass, collect ing together substantially all the elements o the disinte rated cane and extracting `the juice from ve same.-. i

- 26. A process of disintegrating cane stalks which comprises shearing the cane in generalc l I directions longitudinally of thestalks to reduce the same to a loose long Ibered mass and extracting the juice from said mass.

27.` A method of f extractingl juice from sugar cane consisting in washing the stalks,- .185 shredding or shearing the cut stalks lon'gitu'- dinallyy into a hay-like fibrous mass, and subtracting means. l

Signed at Alliance, inthe count of Stark 00 and State of Ohio this 4th da of une, 1928. v

ANNETTE MORGAN,

Eecutw of William H. A organ, Sr.. De-

ceased. g j

jecting the disintegrated mass to juice exv 

